/*
 * Copyright 2020 Cypress Semiconductor Corporation.
 * Copyright 2020 Richard Hughes <richard@hughsie.com>
 *
 * SPDX-License-Identifier: LGPL-2.1-or-later
 */

#include "config.h"

#include "fu-ccgx-dmc-device.h"
#include "fu-ccgx-dmc-devx-device.h"
#include "fu-ccgx-dmc-firmware.h"
#include "fu-ccgx-dmc-struct.h"

#define DMC_FW_WRITE_STATUS_RETRY_COUNT	   3
#define DMC_FW_WRITE_STATUS_RETRY_DELAY_MS 30

#define DMC_CONTROL_TRANSFER_DEFAULT_TIMEOUT 5000  /* control in/out pipe policy in ms */
#define DMC_BULK_OUT_PIPE_TIMEOUT	     2000  /* bulk out pipe policy in ms */
#define DMC_GET_REQUEST_TIMEOUT		     20000 /* bulk out pipe policy in ms */

#define DMC_INTERRUPT_PIPE_ID 0x82 /* interrupt ep for DMC Dock */
#define DMC_BULK_PIPE_ID      1	   /* USB bulk end point for DMC Dock */

/* maximum number of programmable devices expected to be connected in dock */
#define DMC_DOCK_MAX_DEV_COUNT 16

struct _FuCcgxDmcDevice {
	FuUsbDevice parent_instance;
	FuCcgxDmcDeviceStatus device_status;
	guint8 ep_intr_in;
	guint8 ep_bulk_out;
	FuCcgxDmcUpdateModel update_model;
	guint16 trigger_code; /* trigger code for update */
	guint8 custom_meta_flag;
};

#define FU_CCGX_DMC_DEVICE_FLAG_HAS_MANUAL_REPLUG "has-manual-replug"

G_DEFINE_TYPE(FuCcgxDmcDevice, fu_ccgx_dmc_device, FU_TYPE_USB_DEVICE)

static gboolean
fu_ccgx_dmc_device_ensure_dock_id(FuCcgxDmcDevice *self, GError **error)
{
	g_autoptr(FuStructCcgxDmcDockIdentity) st_id = fu_struct_ccgx_dmc_dock_identity_new();
	if (!fu_usb_device_control_transfer(FU_USB_DEVICE(self),
					    FU_USB_DIRECTION_DEVICE_TO_HOST,
					    FU_USB_REQUEST_TYPE_VENDOR,
					    FU_USB_RECIPIENT_DEVICE,
					    FU_CCGX_DMC_RQT_CODE_DOCK_IDENTITY, /* request */
					    0,					/* value */
					    0,					/* index */
					    st_id->buf->data,
					    st_id->buf->len,
					    NULL, /* actual length */
					    DMC_CONTROL_TRANSFER_DEFAULT_TIMEOUT,
					    NULL,
					    error)) {
		g_prefix_error_literal(error, "get_dock_id error: ");
		return FALSE;
	}
	self->custom_meta_flag = fu_struct_ccgx_dmc_dock_identity_get_custom_meta_data_flag(st_id);
	return TRUE;
}

static gboolean
fu_ccgx_dmc_device_ensure_status(FuCcgxDmcDevice *self, GError **error)
{
	guint remove_delay = 20 * 1000; /* guard band */
	gsize bufsz;
	gsize offset = FU_STRUCT_CCGX_DMC_DOCK_STATUS_SIZE;
	g_autofree guint8 *buf = NULL;
	g_autoptr(FuStructCcgxDmcDockStatus) st = fu_struct_ccgx_dmc_dock_status_new();

	/* read minimum status length */
	fu_byte_array_set_size(st->buf, 32, 0x0);
	if (!fu_usb_device_control_transfer(FU_USB_DEVICE(self),
					    FU_USB_DIRECTION_DEVICE_TO_HOST,
					    FU_USB_REQUEST_TYPE_VENDOR,
					    FU_USB_RECIPIENT_DEVICE,
					    FU_CCGX_DMC_RQT_CODE_DOCK_STATUS, /* request */
					    0,				      /* value */
					    0,				      /* index */
					    st->buf->data,
					    st->buf->len,
					    NULL, /* actual length */
					    DMC_CONTROL_TRANSFER_DEFAULT_TIMEOUT,
					    NULL,
					    error)) {
		g_prefix_error_literal(error, "failed to get_dock_status min size: ");
		return FALSE;
	}

	/* read full status length */
	bufsz = FU_STRUCT_CCGX_DMC_DOCK_STATUS_SIZE +
		(DMC_DOCK_MAX_DEV_COUNT * FU_STRUCT_CCGX_DMC_DEVX_STATUS_SIZE);
	buf = g_malloc0(bufsz);
	if (fu_device_has_flag(FU_DEVICE(self), FWUPD_DEVICE_FLAG_EMULATED)) {
		/* copying the old buffer preserves compatibility with old emulation files */
		if (!fu_memcpy_safe(buf,
				    bufsz,
				    0x0,
				    st->buf->data,
				    st->buf->len,
				    0x0,
				    st->buf->len,
				    error))
			return FALSE;
	}
	if (!fu_usb_device_control_transfer(FU_USB_DEVICE(self),
					    FU_USB_DIRECTION_DEVICE_TO_HOST,
					    FU_USB_REQUEST_TYPE_VENDOR,
					    FU_USB_RECIPIENT_DEVICE,
					    FU_CCGX_DMC_RQT_CODE_DOCK_STATUS, /* request */
					    0,				      /* value */
					    0,				      /* index */
					    buf,
					    bufsz,
					    NULL, /* actual length */
					    DMC_CONTROL_TRANSFER_DEFAULT_TIMEOUT,
					    NULL,
					    error)) {
		g_prefix_error_literal(error, "failed to get_dock_status actual size: ");
		return FALSE;
	}
	fu_dump_raw(G_LOG_DOMAIN, "DmcDockStatus", buf, bufsz);

	/* add devx children */
	for (guint i = 0; i < fu_struct_ccgx_dmc_dock_status_get_device_count(st); i++) {
		g_autoptr(FuDeviceLocker) locker = NULL;
		g_autoptr(FuCcgxDmcDevxDevice) devx =
		    fu_ccgx_dmc_devx_device_new(FU_DEVICE(self), buf, bufsz, offset, error);
		if (devx == NULL)
			return FALSE;
		locker = fu_device_locker_new(FU_DEVICE(devx), error);
		if (locker == NULL)
			return FALSE;
		remove_delay += fu_ccgx_dmc_devx_device_get_remove_delay(devx);
		fu_device_add_child(FU_DEVICE(self), FU_DEVICE(devx));
		offset += FU_STRUCT_CCGX_DMC_DEVX_STATUS_SIZE;
	}

	/* ensure the remove delay is set */
	if (fu_device_get_remove_delay(FU_DEVICE(self)) == 0) {
		g_debug("autosetting remove delay to %ums using DMC devx components", remove_delay);
		fu_device_set_remove_delay(FU_DEVICE(self), remove_delay);
	}

	/* success */
	self->device_status = fu_struct_ccgx_dmc_dock_status_get_device_status(st);
	fu_device_set_version_raw(FU_DEVICE(self),
				  fu_struct_ccgx_dmc_dock_status_get_composite_version(st));
	return TRUE;
}

static gboolean
fu_ccgx_dmc_device_send_reset_state_machine(FuCcgxDmcDevice *self, GError **error)
{
	if (!fu_usb_device_control_transfer(FU_USB_DEVICE(self),
					    FU_USB_DIRECTION_HOST_TO_DEVICE,
					    FU_USB_REQUEST_TYPE_VENDOR,
					    FU_USB_RECIPIENT_DEVICE,
					    FU_CCGX_DMC_RQT_CODE_RESET_STATE_MACHINE, /* request */
					    0,					      /* value */
					    0,					      /* index */
					    0,					      /* data */
					    0,					      /* length */
					    NULL, /* actual length */
					    DMC_CONTROL_TRANSFER_DEFAULT_TIMEOUT,
					    NULL,
					    error)) {
		g_prefix_error_literal(error, "failed to reset state machine: ");
		return FALSE;
	}
	return TRUE;
}

static gboolean
fu_ccgx_dmc_device_send_soft_reset(FuCcgxDmcDevice *self, gboolean reset_later, GError **error)
{
	if (!fu_usb_device_control_transfer(FU_USB_DEVICE(self),
					    FU_USB_DIRECTION_HOST_TO_DEVICE,
					    FU_USB_REQUEST_TYPE_VENDOR,
					    FU_USB_RECIPIENT_DEVICE,
					    FU_CCGX_DMC_RQT_CODE_SOFT_RESET, /* request */
					    reset_later,		     /* value */
					    0,				     /* index */
					    0,				     /* data */
					    0,				     /* length */
					    NULL,			     /* actual length */
					    DMC_CONTROL_TRANSFER_DEFAULT_TIMEOUT,
					    NULL,
					    error)) {
		g_prefix_error_literal(error, "failed to send reset: ");
		return FALSE;
	}
	return TRUE;
}

static gboolean
fu_ccgx_dmc_device_send_start_upgrade(FuCcgxDmcDevice *self, GBytes *fw, GError **error)
{
	gsize bufsz = 0;
	const guint8 *buf = NULL;
	g_autofree guint8 *buf_mut = NULL;

	if (fw != NULL)
		buf = g_bytes_get_data(fw, &bufsz);
	if (bufsz > 0) {
		buf_mut = fu_memdup_safe(buf, bufsz, error);
		if (buf_mut == NULL)
			return FALSE;
	}
	if (!fu_usb_device_control_transfer(FU_USB_DEVICE(self),
					    FU_USB_DIRECTION_HOST_TO_DEVICE,
					    FU_USB_REQUEST_TYPE_VENDOR,
					    FU_USB_RECIPIENT_DEVICE,
					    FU_CCGX_DMC_RQT_CODE_UPGRADE_START, /* request */
					    bufsz > 0 ? 1 : 0,			/* value */
					    1,	     /* index, forced update */
					    buf_mut, /* data */
					    bufsz,   /* length */
					    NULL,    /* actual length */
					    DMC_CONTROL_TRANSFER_DEFAULT_TIMEOUT,
					    NULL,
					    error)) {
		g_prefix_error_literal(error, "failed to send reset: ");
		return FALSE;
	}
	return TRUE;
}

static gboolean
fu_ccgx_dmc_device_send_download_trigger(FuCcgxDmcDevice *self, guint16 trigger, GError **error)
{
	if (!fu_usb_device_control_transfer(FU_USB_DEVICE(self),
					    FU_USB_DIRECTION_HOST_TO_DEVICE,
					    FU_USB_REQUEST_TYPE_VENDOR,
					    FU_USB_RECIPIENT_DEVICE,
					    FU_CCGX_DMC_RQT_CODE_TRIGGER, /* request */
					    trigger,			  /* value */
					    0,				  /* index */
					    0,				  /* data */
					    0,				  /* length */
					    NULL,			  /* actual length */
					    DMC_CONTROL_TRANSFER_DEFAULT_TIMEOUT,
					    NULL,
					    error)) {
		g_prefix_error_literal(error, "failed to send download trigger: ");
		return FALSE;
	}
	return TRUE;
}

static gboolean
fu_ccgx_dmc_device_send_fwct(FuCcgxDmcDevice *self,
			     const guint8 *buf,
			     guint16 bufsz,
			     GError **error)
{
	g_autofree guint8 *buf_mut = NULL;

	g_return_val_if_fail(buf != NULL, FALSE);

	buf_mut = fu_memdup_safe(buf, bufsz, error);
	if (buf_mut == NULL)
		return FALSE;
	if (!fu_usb_device_control_transfer(FU_USB_DEVICE(self),
					    FU_USB_DIRECTION_HOST_TO_DEVICE,
					    FU_USB_REQUEST_TYPE_VENDOR,
					    FU_USB_RECIPIENT_DEVICE,
					    FU_CCGX_DMC_RQT_CODE_FWCT_WRITE, /* request */
					    0,				     /* value */
					    0,				     /* index */
					    buf_mut,			     /* data */
					    bufsz,			     /* length */
					    NULL,			     /* actual length */
					    DMC_CONTROL_TRANSFER_DEFAULT_TIMEOUT,
					    NULL,
					    error)) {
		g_prefix_error_literal(error, "failed to send fwct: ");
		return FALSE;
	}
	return TRUE;
}

static gboolean
fu_ccgx_dmc_device_read_intr_req(FuCcgxDmcDevice *self,
				 FuStructCcgxDmcIntRqt *intr_rqt,
				 GError **error)
{
	guint8 rqt_opcode;
	g_autofree gchar *title = NULL;

	g_return_val_if_fail(intr_rqt != NULL, FALSE);

	if (!fu_usb_device_interrupt_transfer(FU_USB_DEVICE(self),
					      self->ep_intr_in,
					      intr_rqt->buf->data,
					      intr_rqt->buf->len,
					      NULL,
					      DMC_GET_REQUEST_TIMEOUT,
					      NULL,
					      error)) {
		g_prefix_error_literal(error, "failed to read intr rqt: ");
		return FALSE;
	}

	/* success */
	rqt_opcode = fu_struct_ccgx_dmc_int_rqt_get_opcode(intr_rqt);
	title = g_strdup_printf("DmcIntRqt-opcode=0x%02x[%s]",
				rqt_opcode,
				fu_ccgx_dmc_int_opcode_to_string(rqt_opcode));
	fu_dump_raw(G_LOG_DOMAIN,
		    title,
		    fu_struct_ccgx_dmc_int_rqt_get_data(intr_rqt, NULL),
		    MIN(fu_struct_ccgx_dmc_int_rqt_get_length(intr_rqt),
			FU_STRUCT_CCGX_DMC_INT_RQT_SIZE_DATA));
	return TRUE;
}

static gboolean
fu_ccgx_dmc_device_send_write_command(FuCcgxDmcDevice *self,
				      guint16 start_row,
				      guint16 num_of_row,
				      GError **error)
{
	if (!fu_usb_device_control_transfer(FU_USB_DEVICE(self),
					    FU_USB_DIRECTION_HOST_TO_DEVICE,
					    FU_USB_REQUEST_TYPE_VENDOR,
					    FU_USB_RECIPIENT_DEVICE,
					    FU_CCGX_DMC_RQT_CODE_IMG_WRITE, /* request */
					    start_row,			    /* value */
					    num_of_row,			    /* index */
					    0,				    /* data */
					    0,				    /* length */
					    NULL,			    /* actual length */
					    DMC_CONTROL_TRANSFER_DEFAULT_TIMEOUT,
					    NULL,
					    error)) {
		g_prefix_error_literal(error, "failed to send fwct: ");
		return FALSE;
	}
	return TRUE;
}

static gboolean
fu_ccgx_dmc_device_send_row_data(FuCcgxDmcDevice *self,
				 const guint8 *row_buffer,
				 guint16 row_size,
				 GError **error)
{
	g_return_val_if_fail(row_buffer != NULL, FALSE);

	if (!fu_usb_device_bulk_transfer(FU_USB_DEVICE(self),
					 self->ep_bulk_out,
					 (guint8 *)row_buffer,
					 row_size,
					 NULL,
					 DMC_BULK_OUT_PIPE_TIMEOUT,
					 NULL,
					 error)) {
		g_prefix_error_literal(error, "failed to write row data: ");
		return FALSE;
	}
	return TRUE;
}

static void
fu_ccgx_dmc_device_to_string(FuDevice *device, guint idt, GString *str)
{
	FuCcgxDmcDevice *self = FU_CCGX_DMC_DEVICE(device);
	fwupd_codec_string_append(str,
				  idt,
				  "UpdateModel",
				  fu_ccgx_dmc_update_model_to_string(self->update_model));
	fwupd_codec_string_append_hex(str, idt, "EpBulkOut", self->ep_bulk_out);
	fwupd_codec_string_append_hex(str, idt, "EpIntrIn", self->ep_intr_in);
	fwupd_codec_string_append_hex(str, idt, "TriggerCode", self->trigger_code);
	fwupd_codec_string_append(str,
				  idt,
				  "DeviceStatus",
				  fu_ccgx_dmc_device_status_to_string(self->device_status));
}

static gboolean
fu_ccgx_dmc_device_get_image_write_status_cb(FuDevice *device, gpointer user_data, GError **error)
{
	FuCcgxDmcDevice *self = FU_CCGX_DMC_DEVICE(device);
	const guint8 *req_data;
	guint8 req_opcode;
	g_autoptr(FuStructCcgxDmcIntRqt) st_rqt = fu_struct_ccgx_dmc_int_rqt_new();

	/* get interrupt request */
	if (!fu_ccgx_dmc_device_read_intr_req(self, st_rqt, error)) {
		g_prefix_error_literal(error, "failed to read intr req in image write status: ");
		return FALSE;
	}

	/* check opcode for fw write */
	req_opcode = fu_struct_ccgx_dmc_int_rqt_get_opcode(st_rqt);
	if (req_opcode != FU_CCGX_DMC_INT_OPCODE_IMG_WRITE_STATUS) {
		g_set_error(error,
			    FWUPD_ERROR,
			    FWUPD_ERROR_NOT_SUPPORTED,
			    "invalid intr req opcode in image write status: %u [%s]",
			    req_opcode,
			    fu_ccgx_dmc_int_opcode_to_string(req_opcode));
		return FALSE;
	}

	/* retry if data[0] is 1 otherwise error */
	req_data = fu_struct_ccgx_dmc_int_rqt_get_data(st_rqt, NULL);
	if (req_data[0] != 0) {
		g_set_error(error,
			    FWUPD_ERROR,
			    FWUPD_ERROR_NOT_SUPPORTED,
			    "invalid intr req data in image write status = %u",
			    req_data[0]);
		fu_device_sleep(device, DMC_FW_WRITE_STATUS_RETRY_DELAY_MS);
		return FALSE;
	}
	return TRUE;
}

static gboolean
fu_ccgx_dmc_device_write_firmware_record(FuCcgxDmcDevice *self,
					 FuCcgxDmcFirmwareSegmentRecord *seg_rcd,
					 gsize *fw_data_written,
					 FuProgress *progress,
					 GError **error)
{
	GPtrArray *data_records = NULL;

	/* progress */
	fu_progress_set_id(progress, G_STRLOC);
	fu_progress_add_step(progress, FWUPD_STATUS_DEVICE_BUSY, 1, NULL);
	fu_progress_add_step(progress, FWUPD_STATUS_DEVICE_WRITE, 99, NULL);

	/* write start row and number of rows to a device */
	if (!fu_ccgx_dmc_device_send_write_command(self,
						   seg_rcd->start_row,
						   seg_rcd->num_rows,
						   error))
		return FALSE;
	fu_progress_step_done(progress);

	/* send data records */
	data_records = seg_rcd->data_records;
	for (guint32 data_index = 0; data_index < data_records->len; data_index++) {
		GBytes *data_rcd = g_ptr_array_index(data_records, data_index);
		const guint8 *row_buffer = NULL;
		gsize row_size = 0;

		/* write row data */
		row_buffer = g_bytes_get_data(data_rcd, &row_size);
		if (!fu_ccgx_dmc_device_send_row_data(self, row_buffer, (guint16)row_size, error))
			return FALSE;

		/* increase fw written size */
		*fw_data_written += row_size;

		/* get status */
		if (!fu_device_retry(FU_DEVICE(self),
				     fu_ccgx_dmc_device_get_image_write_status_cb,
				     DMC_FW_WRITE_STATUS_RETRY_COUNT,
				     NULL,
				     error))
			return FALSE;

		/* done */
		fu_progress_set_percentage_full(fu_progress_get_child(progress),
						data_index + 1,
						data_records->len);
	}
	fu_progress_step_done(progress);

	/* success */
	return TRUE;
}

static gboolean
fu_ccgx_dmc_device_write_firmware_image(FuCcgxDmcDevice *self,
					FuCcgxDmcFirmwareRecord *img_rcd,
					gsize *fw_data_written,
					const gsize fw_data_size,
					FuProgress *progress,
					GError **error)
{
	GPtrArray *seg_records;

	g_return_val_if_fail(img_rcd != NULL, FALSE);
	g_return_val_if_fail(fw_data_written != NULL, FALSE);

	/* get segment records */
	seg_records = img_rcd->seg_records;
	fu_progress_set_id(progress, G_STRLOC);
	fu_progress_set_steps(progress, seg_records->len);
	for (guint32 seg_index = 0; seg_index < seg_records->len; seg_index++) {
		FuCcgxDmcFirmwareSegmentRecord *seg_rcd = g_ptr_array_index(seg_records, seg_index);
		if (!fu_ccgx_dmc_device_write_firmware_record(self,
							      seg_rcd,
							      fw_data_written,
							      fu_progress_get_child(progress),
							      error))
			return FALSE;
		fu_progress_step_done(progress);
	}
	return TRUE;
}

static gboolean
fu_ccgx_dmc_device_write_firmware(FuDevice *device,
				  FuFirmware *firmware,
				  FuProgress *progress,
				  FwupdInstallFlags flags,
				  GError **error)
{
	FuCcgxDmcDevice *self = FU_CCGX_DMC_DEVICE(device);
	FuCcgxDmcFirmwareRecord *img_rcd = NULL;
	GBytes *custom_meta_blob;
	GBytes *fwct_blob;
	GPtrArray *image_records;
	const guint8 *fwct_buf = NULL;
	const guint8 *rqt_data = NULL;
	gsize fwct_sz = 0;
	gsize fw_data_size = 0;
	gsize fw_data_written = 0;
	guint8 img_index = 0;
	guint8 rqt_opcode;
	g_autoptr(FuStructCcgxDmcIntRqt) st_rqt = fu_struct_ccgx_dmc_int_rqt_new();

	/* progress */
	fu_progress_set_id(progress, G_STRLOC);
	fu_progress_add_step(progress, FWUPD_STATUS_DEVICE_BUSY, 1, NULL);
	fu_progress_add_step(progress, FWUPD_STATUS_DEVICE_WRITE, 1, "fwct");
	fu_progress_add_step(progress, FWUPD_STATUS_DEVICE_WRITE, 98, "img");

	/* this is used in FuDevice->attach */
	self->update_model = FU_CCGX_DMC_UPDATE_MODEL_NONE;

	/* get fwct record */
	fwct_blob = fu_ccgx_dmc_firmware_get_fwct_record(FU_CCGX_DMC_FIRMWARE(firmware));
	fwct_buf = g_bytes_get_data(fwct_blob, &fwct_sz);
	if (fwct_buf == NULL) {
		g_set_error_literal(error,
				    FWUPD_ERROR,
				    FWUPD_ERROR_NOT_SUPPORTED,
				    "invalid fwct data");
		return FALSE;
	}

	/* reset */
	if (!fu_ccgx_dmc_device_send_reset_state_machine(self, error))
		return FALSE;
	fu_progress_step_done(progress);

	/* start fw upgrade with custom metadata */
	custom_meta_blob =
	    fu_ccgx_dmc_firmware_get_custom_meta_record(FU_CCGX_DMC_FIRMWARE(firmware));
	if (!fu_ccgx_dmc_device_send_start_upgrade(self, custom_meta_blob, error))
		return FALSE;

	/* send fwct data */
	if (!fu_ccgx_dmc_device_send_fwct(self, fwct_buf, fwct_sz, error))
		return FALSE;
	fu_progress_step_done(progress);

	/* get total fw size */
	image_records = fu_ccgx_dmc_firmware_get_image_records(FU_CCGX_DMC_FIRMWARE(firmware));
	fw_data_size = fu_ccgx_dmc_firmware_get_fw_data_size(FU_CCGX_DMC_FIRMWARE(firmware));
	while (1) {
		/* get interrupt request */
		if (!fu_ccgx_dmc_device_read_intr_req(self, st_rqt, error))
			return FALSE;
		rqt_data = fu_struct_ccgx_dmc_int_rqt_get_data(st_rqt, NULL);

		/* fw upgrade request */
		rqt_opcode = fu_struct_ccgx_dmc_int_rqt_get_opcode(st_rqt);
		if (rqt_opcode != FU_CCGX_DMC_INT_OPCODE_FW_UPGRADE_RQT)
			break;
		img_index = rqt_data[0];
		if (img_index >= image_records->len) {
			g_set_error(error,
				    FWUPD_ERROR,
				    FWUPD_ERROR_NOT_SUPPORTED,
				    "invalid image index %d, expected less than %u",
				    img_index,
				    image_records->len);
			return FALSE;
		}

		/* write image */
		g_debug("writing image index %u/%u", img_index, image_records->len - 1);
		img_rcd = g_ptr_array_index(image_records, img_index);
		if (!fu_ccgx_dmc_device_write_firmware_image(self,
							     img_rcd,
							     &fw_data_written,
							     fw_data_size,
							     fu_progress_get_child(progress),
							     error))
			return FALSE;
	}
	if (rqt_opcode != FU_CCGX_DMC_INT_OPCODE_FW_UPGRADE_STATUS) {
		if (rqt_opcode == FU_CCGX_DMC_FWCT_ANALYSIS_STATUS_INVALID_FENCE) {
			g_set_error_literal(error,
					    FWUPD_ERROR,
					    FWUPD_ERROR_NOT_SUPPORTED,
					    "cannot downgrade to this firmware version");
			return FALSE;
		}
		if (rqt_opcode == FU_CCGX_DMC_INT_OPCODE_FWCT_ANALYSIS_STATUS) {
			g_set_error(error,
				    FWUPD_ERROR,
				    FWUPD_ERROR_NOT_SUPPORTED,
				    "invalid fwct analysis failed with status 0x%02x[%s]",
				    rqt_data[0],
				    fu_ccgx_dmc_fwct_analysis_status_to_string(rqt_data[0]));
			return FALSE;
		}
		g_set_error(error,
			    FWUPD_ERROR,
			    FWUPD_ERROR_NOT_SUPPORTED,
			    "invalid dmc intr req opcode 0x%02x[%s] with status 0x%02x",
			    rqt_opcode,
			    fu_ccgx_dmc_int_opcode_to_string(rqt_opcode),
			    rqt_data[0]);
		return FALSE;
	}

	if (rqt_data[0] == FU_CCGX_DMC_DEVICE_STATUS_UPDATE_PHASE1_COMPLETE_FULL_PHASE2_NOT_DONE) {
		self->update_model = FU_CCGX_DMC_UPDATE_MODEL_DOWNLOAD_TRIGGER;
	} else if (rqt_data[0] == FU_CCGX_DMC_DEVICE_STATUS_FW_DOWNLOADED_UPDATE_PEND) {
		self->update_model = FU_CCGX_DMC_UPDATE_MODEL_PENDING_RESET;
	} else if (rqt_data[0] >= FU_CCGX_DMC_DEVICE_STATUS_PHASE2_UPDATE_FAIL_INVALID_FWCT) {
		g_set_error(error,
			    FWUPD_ERROR,
			    FWUPD_ERROR_NOT_SUPPORTED,
			    "invalid status code = %u",
			    rqt_data[0]);
		return FALSE;
	}
	fu_progress_step_done(progress);

	/* success */
	return TRUE;
}

static FuFirmware *
fu_ccgx_dmc_device_prepare_firmware(FuDevice *device,
				    GInputStream *stream,
				    FuProgress *progress,
				    FuFirmwareParseFlags flags,
				    GError **error)
{
	g_autoptr(FuFirmware) firmware = fu_ccgx_dmc_firmware_new();
	FuCcgxDmcDevice *self = FU_CCGX_DMC_DEVICE(device);
	GBytes *custom_meta_blob = NULL;
	gboolean custom_meta_exist = FALSE;

	/* parse all images */
	if (!fu_firmware_parse_stream(firmware, stream, 0x0, flags, error))
		return NULL;

	/* get custom meta record */
	custom_meta_blob =
	    fu_ccgx_dmc_firmware_get_custom_meta_record(FU_CCGX_DMC_FIRMWARE(firmware));
	if (custom_meta_blob)
		if (g_bytes_get_size(custom_meta_blob) > 0)
			custom_meta_exist = TRUE;

	/* check custom meta flag */
	if (self->custom_meta_flag != custom_meta_exist) {
		g_set_error_literal(error,
				    FWUPD_ERROR,
				    FWUPD_ERROR_NOT_SUPPORTED,
				    "custom metadata mismatch");
		return NULL;
	}
	return g_steal_pointer(&firmware);
}

static gboolean
fu_ccgx_dmc_device_attach(FuDevice *device, FuProgress *progress, GError **error)
{
	FuCcgxDmcDevice *self = FU_CCGX_DMC_DEVICE(device);
	gboolean manual_replug;

	manual_replug =
	    fu_device_has_private_flag(device, FU_CCGX_DMC_DEVICE_FLAG_HAS_MANUAL_REPLUG);

	/* device action required */
	if (self->update_model == FU_CCGX_DMC_UPDATE_MODEL_DOWNLOAD_TRIGGER) {
		if (self->trigger_code > 0) {
			if (!fu_ccgx_dmc_device_send_download_trigger(self,
								      self->trigger_code,
								      error)) {
				g_prefix_error_literal(error, "download trigger error: ");
				return FALSE;
			}
		}
	} else if (self->update_model == FU_CCGX_DMC_UPDATE_MODEL_PENDING_RESET) {
		if (!fu_ccgx_dmc_device_send_soft_reset(self, manual_replug, error)) {
			g_prefix_error_literal(error, "soft reset error: ");
			return FALSE;
		}
	}

	/* the user has to do something */
	if (manual_replug) {
		g_autoptr(FwupdRequest) request = fwupd_request_new();
		fwupd_request_set_kind(request, FWUPD_REQUEST_KIND_IMMEDIATE);
		fwupd_request_set_id(request, FWUPD_REQUEST_ID_REMOVE_REPLUG);
		fwupd_request_add_flag(request, FWUPD_REQUEST_FLAG_ALLOW_GENERIC_MESSAGE);
		if (!fu_device_emit_request(device, request, progress, error))
			return FALSE;
	}

	/* success */
	fu_device_add_flag(device, FWUPD_DEVICE_FLAG_WAIT_FOR_REPLUG);
	return TRUE;
}

static void
fu_ccgx_dmc_device_ensure_factory_version(FuCcgxDmcDevice *self)
{
	GPtrArray *children = fu_device_get_children(FU_DEVICE(self));
	for (guint i = 0; i < children->len; i++) {
		FuCcgxDmcDevxDevice *child = g_ptr_array_index(children, i);
		const guint8 *fw_version = fu_ccgx_dmc_devx_device_get_fw_version(child);
		FuCcgxDmcDevxDeviceType device_type =
		    fu_ccgx_dmc_devx_device_get_device_type(child);
		guint64 fwver_img1 = fu_memread_uint64(fw_version + 0x08, G_LITTLE_ENDIAN);
		guint64 fwver_img2 = fu_memread_uint64(fw_version + 0x10, G_LITTLE_ENDIAN);
		if (device_type == FU_CCGX_DMC_DEVX_DEVICE_TYPE_DMC && fwver_img1 == fwver_img2 &&
		    fwver_img1 != 0) {
			g_info("overriding version as device is in factory mode");
			fu_device_set_version_raw(FU_DEVICE(self), 0x1);
			return;
		}
	}
}

static gboolean
fu_ccgx_dmc_device_probe(FuDevice *device, GError **error)
{
	FuCcgxDmcDevice *self = FU_CCGX_DMC_DEVICE(device);
	g_autoptr(FuUsbInterface) intf = NULL;

	/* find the correct vendor-specific interface */
	intf = fu_usb_device_get_interface(FU_USB_DEVICE(self), 0xFF, 0x03, 0x00, error);
	if (intf == NULL)
		return FALSE;
	fu_usb_device_add_interface(FU_USB_DEVICE(self), fu_usb_interface_get_number(intf));
	return TRUE;
}

static gboolean
fu_ccgx_dmc_device_setup(FuDevice *device, GError **error)
{
	FuCcgxDmcDevice *self = FU_CCGX_DMC_DEVICE(device);

	/* FuUsbDevice->setup */
	if (!FU_DEVICE_CLASS(fu_ccgx_dmc_device_parent_class)->setup(device, error))
		return FALSE;

	/* get dock identity */
	if (!fu_ccgx_dmc_device_ensure_dock_id(self, error))
		return FALSE;
	if (!fu_ccgx_dmc_device_ensure_status(self, error))
		return FALSE;

	/* use composite version, but also try to detect "factory mode" where the SPI has been
	 * imaged but has not been updated manually to the initial version */
	if (fu_device_get_version_raw(device) == 0)
		fu_ccgx_dmc_device_ensure_factory_version(self);
	fu_device_add_flag(FU_DEVICE(self), FWUPD_DEVICE_FLAG_UPDATABLE);

	if (self->custom_meta_flag > 0)
		fu_device_add_flag(FU_DEVICE(self), FWUPD_DEVICE_FLAG_SIGNED_PAYLOAD);
	else
		fu_device_add_flag(FU_DEVICE(self), FWUPD_DEVICE_FLAG_UNSIGNED_PAYLOAD);

	if (fu_device_has_private_flag(device, FU_CCGX_DMC_DEVICE_FLAG_HAS_MANUAL_REPLUG)) {
		fu_device_add_request_flag(FU_DEVICE(self),
					   FWUPD_REQUEST_FLAG_ALLOW_GENERIC_MESSAGE);
	}

	return TRUE;
}

static gboolean
fu_ccgx_dmc_device_set_quirk_kv(FuDevice *device,
				const gchar *key,
				const gchar *value,
				GError **error)
{
	FuCcgxDmcDevice *self = FU_CCGX_DMC_DEVICE(device);
	if (g_strcmp0(key, "CcgxDmcTriggerCode") == 0) {
		guint64 tmp = 0;
		if (!fu_strtoull(value, &tmp, 0, G_MAXUINT16, FU_INTEGER_BASE_AUTO, error))
			return FALSE;
		self->trigger_code = tmp;
		return TRUE;
	}
	g_set_error_literal(error, FWUPD_ERROR, FWUPD_ERROR_NOT_SUPPORTED, "no supported");
	return FALSE;
}

static void
fu_ccgx_dmc_device_set_progress(FuDevice *device, FuProgress *progress)
{
	fu_progress_set_id(progress, G_STRLOC);
	fu_progress_add_flag(progress, FU_PROGRESS_FLAG_NO_PROFILE); /* actually 0, 20, 0, 80! */
	fu_progress_add_step(progress, FWUPD_STATUS_DECOMPRESSING, 0, "prepare-fw");
	fu_progress_add_step(progress, FWUPD_STATUS_DEVICE_RESTART, 0, "detach");
	fu_progress_add_step(progress, FWUPD_STATUS_DEVICE_WRITE, 75, "write");
	fu_progress_add_step(progress, FWUPD_STATUS_DEVICE_RESTART, 0, "attach");
	fu_progress_add_step(progress, FWUPD_STATUS_DEVICE_BUSY, 25, "reload");
}

static gchar *
fu_ccgx_dmc_device_convert_version(FuDevice *device, guint64 version_raw)
{
	return fu_version_from_uint32(version_raw, fu_device_get_version_format(device));
}

static void
fu_ccgx_dmc_device_init(FuCcgxDmcDevice *self)
{
	self->ep_intr_in = DMC_INTERRUPT_PIPE_ID;
	self->ep_bulk_out = DMC_BULK_PIPE_ID;
	self->trigger_code = 0x1;
	fu_device_add_protocol(FU_DEVICE(self), "com.cypress.ccgx.dmc");
	fu_device_add_protocol(FU_DEVICE(self), "com.infineon.ccgx.dmc");
	fu_device_set_version_format(FU_DEVICE(self), FWUPD_VERSION_FORMAT_QUAD);
	fu_device_set_remove_delay(FU_DEVICE(self), FU_DEVICE_REMOVE_DELAY_RE_ENUMERATE);
	fu_device_add_flag(FU_DEVICE(self), FWUPD_DEVICE_FLAG_REQUIRE_AC);
	fu_device_add_flag(FU_DEVICE(self), FWUPD_DEVICE_FLAG_DUAL_IMAGE);
	fu_device_add_flag(FU_DEVICE(self), FWUPD_DEVICE_FLAG_SELF_RECOVERY);
	fu_device_add_private_flag(FU_DEVICE(self), FU_DEVICE_PRIVATE_FLAG_REPLUG_MATCH_GUID);
	fu_device_register_private_flag(FU_DEVICE(self), FU_CCGX_DMC_DEVICE_FLAG_HAS_MANUAL_REPLUG);
}

static void
fu_ccgx_dmc_device_class_init(FuCcgxDmcDeviceClass *klass)
{
	FuDeviceClass *device_class = FU_DEVICE_CLASS(klass);
	device_class->to_string = fu_ccgx_dmc_device_to_string;
	device_class->write_firmware = fu_ccgx_dmc_device_write_firmware;
	device_class->prepare_firmware = fu_ccgx_dmc_device_prepare_firmware;
	device_class->attach = fu_ccgx_dmc_device_attach;
	device_class->probe = fu_ccgx_dmc_device_probe;
	device_class->setup = fu_ccgx_dmc_device_setup;
	device_class->set_quirk_kv = fu_ccgx_dmc_device_set_quirk_kv;
	device_class->set_progress = fu_ccgx_dmc_device_set_progress;
	device_class->convert_version = fu_ccgx_dmc_device_convert_version;
}
